化学计量氧化铁和含铁氧化铁的合成、结构和水合作用

IF 4.7 3区 工程技术 Q1 CONSTRUCTION & BUILDING TECHNOLOGY Journal of Sustainable Cement-Based Materials Pub Date : 2023-10-09 DOI:10.1080/21650373.2023.2258500
Shuang Wu, Changzai Ren, Yunan Sun, Wenlong Wang
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引用次数: 0

摘要

摘要铝铝酸钙胶结物的主要矿物成分是铝铝酸钙,其早期的水力反应性是由铝铝酸钙引起的。本文以CaSO4为唯一的CaO源,采用一种新颖的方法合成了高纯度的ye 'elimite。在1250℃下烧结4 h,合成了化学等量极限钛矿和含铁极限钛矿,纯度最高。含铁极限钛矿的晶体结构通过SO4四面体和Ca原子在I4¯3m空间群上的动态无序来表征。此外,还研究了化学计量氧化铁和含铁氧化铁在与石膏和不与石膏反应时的早期水化行为。在不含石膏的情况下,化学计量氧化铁比含铁氧化铁反应快。然而,在石膏存在的情况下,前者的水化速度要快于后者,并且这两种矿物的水化速率都高于在没有石膏的情况下观察到的矿物。关键词:化学计量学限制含铁限制固态合成晶体结构水化披露声明作者声明他们没有已知的竞争经济利益或个人关系可能会影响本文所报道的工作。项目资助:山东省重点研发项目(2022CXGC010701)、煤炭高效利用国家重点实验室及绿色化工基金(2022-K51)、山东省科技型中小企业创新能力提升项目(2022TSGC2016)。
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Synthesis, structure, and hydration of stoichiometric ye’elimite and iron-bearing ye’elimite
AbstractYe’elimite is the primary mineral component in calcium sulfoaluminate cements and is responsible for their early hydraulic reactivity. Herein, ye’elimite was synthesized using a novel method with CaSO4 as the sole CaO source to achieve high purity. Stoichiometric ye’elimite and iron-bearing ye’elimite were synthesized, with the highest purity obtained through sintering at 1250°C for 4 h. The crystal structure of iron-bearing ye’elimite was represented through dynamical disordering of the SO4 tetrahedron and Ca atom with the space group I4¯3m. Moreover, the early hydration behaviors of stoichiometric ye’elimite and iron-bearing ye’elimite reacting with and without gypsum were studied. In the absence of gypsum, stoichiometric ye’elimite reacts faster than iron-bearing ye’elimite. However, in the presence of gypsum, the hydration of the former is faster than that of the latter and the hydration rates of both these minerals are higher than those observed in the absence of gypsum.Keywords: stoichiometric ye’elimiteiron-bearing ye’elimitesolid-state synthesiscrystal structurehydration Disclosure statementThe authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.Additional informationFundingThis work was supported by Shandong Provincial Key Research and Development Project (2022CXGC010701), State Key Laboratory of High-efficiency Utilization of Coal and Green Chemical Engineering Fund (2022-K51), and Shandong Provincial Science and Technology SMEs Innovation Capacity Improvement Project (2022TSGC2016).
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来源期刊
CiteScore
6.60
自引率
15.90%
发文量
71
期刊介绍: The Journal of Sustainable Cement-Based Materials aims to publish theoretical and applied researches on materials, products and structures that incorporate cement. The journal is a forum for discussion of research on manufacture, hydration and performance of cement-based materials; novel experimental techniques; the latest analytical and modelling methods; the examination and the diagnosis of real cement and concrete structures; and the potential for improved cement-based materials. The journal welcomes original research papers, major reviews, rapid communications and selected conference papers. The Journal of Sustainable Cement-Based Materials covers a wide range of topics within its subject category, including but are not limited to: • raw materials and manufacture of cement • mixing, rheology and hydration • admixtures • structural characteristics and performance of cement-based materials • characterisation techniques and modeling • use of fibre in cement based-materials • degradation and repair of cement-based materials • novel testing techniques and applications • waste management
期刊最新文献
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